Machine tool



June 18, 1935. G. GCR-rom, 30,; Er AL 2,005,595 4 l MACHINE TooL Filed Jan. l5, 1934 8 Sheets-Sheet l June 18, 1935 G. Gom-0N, ab., E-r As. 2,005,696

MACHINE TOOL Filed Jan. l5, 1934 8 Sheets-Sheet 2 7 "illu".

June 18, 1935.

G. Gom-0N, so., Erm. 2,005,696

MACHINE TOOL Filed'Jan. 1s, 1954 8 sheets-sheet 3 June 18, 1935. Q Gom-0N, 311 Er AL 2,005,696

` MACHINE TooL Filed Jan. 15, 1934 8 Shees-Shee'r,l 4

June 18, 1935. s. G-oR-roN, 3D., ET AL 2,005,696

MACHINE TOOLl Filed Jan. 15, 1934 8 sneetsheet 5` :Q5 @n wn awww fl. n. nw Nimm.

June 18, 1935. G. Gom-0N, 3D., ET AL 2,005,696

MACHINE TooL I Filed Jan. 13, '1934 8 Sheets-'Sheet 6 June18,1935. G. GORTON, al1/HAL 2,005,696

MACHINE TOOL Filed Jan. -l3, 1934 8 Sheets-Sheet '7 June 18, 1935. lavsoRToN, 3D., ET AL MACHINE TooL n Sheets-Sheet 8 Patented June 18, 1935 UNITED STATES MACHINE TOCL George Gorton, 3d, Peter M. Henkes, and George Horner, Racine, Wis., assignors to George Gorton Machine Company, Racine, Wis., a corporation of Wisconsin Application` January 13, 1934, Serial No. 706,540

23 Claims.

This invention relates toy certain improvements in machine tools, and the objects and nature of the invention willbe understood by those skilled in the art in the light of the following description 5, of the accompanying drawings that illustrate what we now believe to be the preferred mechanical expression or embodiment of the invention from among other forms, arrangements and combinations within the spirit and scope thereof.

An object of the invention is the production of improved manually-controlled apparatus for the economical production of work, such as dies,

' molds and other articles, in duplication of a copy or master pattern,I at a one tov one ratio; in other words, to` provide comparatively simple economical apparatus, say, of the milling or routing machine type for the economical production of work of the same size as and in duplication 'of the copy or master pattern.

A further object of the invention is to provide a milling, routing or other machineequipped for the purposes of our invention, with a rotary cutter head and a pattern tracing stylus head, adapted to be arranged in normal xed operative relationship and Arelatively xed locations, with respect to the work to'be operated on by the cutter and the copy to be tracedI by the stylus, and a table adapted to carry both the work and the copy in relatively fixed relation to each other and in operative relation to the rotary 'cutter and to the tracing stylus, respectively, and to provide means whereby said table is freely movable uni- Y versally in a plane perpendicular to the parallel axes of the rotary cutter and tracing stylus to carry the work and copy laterally with respect to the` stationarily located rotary cutter and tracer spindle, and to provide manually actuated means capable of operation by a single handle, or from one station, for universally moving said table laterally through the medium of a power multiplying connection, for moving and controlling said table against the resistance of the rotating cutter on the work.

'A further object of the invention is to provide a duplicating machine of the type having the (oi. faoiam leverage connection with the table for universally moving and controlling the same.

A further object ,of the invention is the provision of various improvements in detail, subrganizations, and features, with the end in View of producing an advantageous and improved milling, routing or allied machine for the vproduction of work in duplication of a master pattern or copy.

With the foregoing and other objects that will develop as the description proceeds, in view, our invention consists in certain novel features in structure, organization and combinations, as more fully and particularly described and specified hereinafter.

Referring to the accompanying drawings forming a part hereof: y y

Fig. 1 shows in perspective a machine tool, say, of the vertical cutter spindle milling machine type equipped with an embodiment of ourl invention.

Fig. 2 is a front elevation more or less diagrammatically showing the cutter and tracing stylus4 heads andthe sensitive table carrying the work and pattern, and the table operating and-controlling means, and in part, the milling machine Work support or table, certain parts being broken away or shown in section, and other parts indicated by dotted lines, the frame parts not being shown.

Fig. Bis an end elevation of sensitive table and its controlling means, and the milling machine work support, partly in vertical section, the frame not being shown.

Fig. 4 is a detail view partly in vertical section of the universally laterally swingable upright sensitive table moving and controlling' lever, the push and pull arm therefrom to the table and the fixed arm supporting arm for said lever, being partially broken away.

Fig. 5 is a vertical longitudinal section of the combined work and pattern sensitive table and its mountings, the milling machine work ta )le being shown in part, the section being taken on the line 5 5, Fig, 6, the bolts for locking the top table to the base being indicated by dotted lines.

Fig. 6 is a vertical section `on the line 6 6, Fig. 5,

Fig. 7 is a detail front elevation of the cutter and tracer stylus heads, partially in vertical section, the work and master patternbeing diagrammatically indicated.

Fig. 8- isa detail horizontal sectioned View of the organization shown by Fig. 7.

Fig. 9 is a detached detail top plan of the top or combined work and pattern table and its mountings, namely, the base and saddle, the sev- Fig. 11 is a detached top plan view of the base of the top table mountings without the bearing bars.

Fig. -12 is a detached top plan view of the saddle of the top table mounting, without the bearing rails and bars.

Figs. 13 and 14 are detached top plan views of the upper and lower plates, respectively, that can be employed on the top table for setting and adjusting the master pattern with respect tothe stylus and `with respect to the work blank fixed on said top table.

Fig. l15 is a detail, more or less diagrammatical horizontal section through the top table and end portions of the saddle showing the two parallel` endless processions of travelers, such asballs supporting said table from and confining the same to said saddle, and the two sets of bearing rails and bars, with the bars forming the endless runways or circuits to which the balls are confined and in whichthey travel.

Fig. 16 shows the tracer stylus head in part, in longitudinal vertical section.

Fig. 17 is a detail cross section taken on the line IT-Il, Fig. 18.

Fig. 18 shows a portion "of the structure illustrated by the horizontal section Fig. 15, on an enlarged scale.

In the drawings, we show a machine tool of the vertical cutter spindle milling, routing, or the like type, say, a machine of the characteristics of the disclosure of the George Gorton Patent, No. 1,862,052, dated June 7, 1932, with our instant invention adapted thereto and included therein. We do not, however, wish to so limit our invention, as we wish to cover the same in any'machine to which it can be adapted and/or in which it can be embodied for the purposes of our invention, whether or not the machine cutter head is carried by a sliding support or otherwise. The milling orv other machine, illustrated merely as an example, embodies a main frame or pedestal I, supported by any suitable base, and at the iront provided with any suitable vertically adjustable knee carrying the standard or any suitable work table 2, so supported in the usual or any other suitable manner, as to be adjustable forwardly and rearwardly by suitable feed means having front actuating handle 3, and to be endwise adjustable by suitable feed means actuated by the handle l.

Above the said work table, the frame supports a suitable cutter head 5, which can be of conventional design and organization, although we happen to show a cutter head provided with a vertical rotary cutter spindle 6, depending therefrom and at its depending end equipped with a suitable chuck or collet to operatively hold and drive an alined rotary milling or other suitable cutter 1, with this cutter spindle mounted and rotatable in and carried longitudinally by a suitable slide or quill 8, carried by and slidable in the cutter head. The spindle can be driven by any suitable drive, such as a belt drive including an endless belt driven pulley 9. The cutter head can provide any suitable depth stop mechanism to control or set the working depth of the rotary cutter "I, and with a 'spring to approximately balance the weight of the slidable quill and rotary cutter spindle carried thereby, and feed means for raising and lowering the quill and its cutter spindle. As for example, Without so limiting ourselves, the cutter head, quill and spindle, can be equipped with depth s'top means, a spring for approximately balancing the weight of the quill and its load, and feed means such as illustrated by the hereinbeforementi'oned patent, and George Gorton Patent No. 1,889,653.

We show the quill carrying the rotary cutter provided with feed means embodying a toothed rack 8a rigid with and extending longitudinally of the quill and a rotary cross shaft I0 extending transversely through and beyond and mounted in the cutter head housing, and therein provided with a pinion Illa, fixed to the shaft and in constant mesh with said rack. At its projecting left hand end this shaft is provided with a forwardly extending radial handle IIIb, by which the operator can control the elevation of the cutter and hold the same down to its work.

. In the particular example illustrated, we show a tracer spindle head I I, in fixed spaced relation to the cutter head 5, and providing a vertical tracer stylus I2, and its alined carrying spindle I2a parallel with the cutter and its spindle and spaced a normally fixed distance therefrom, and simultaneously movable therewith in such manner that when the cutter is moved longitudinally toward and from the work by its feed mechanism, the tracer will be simultaneously and correspondingly moved longitudinally-'toward and from the pattern that is to be reproduced in the same size bythe cutter.

The tracer spindle 12a, is at its lower end equipped With any suitable chuck or collet for removably receiving and holding the depending tracer stylus I2, in operative position alined with vtol ing and releasing the stylus by contraction and expansion of the collet.

The tracer spindle I2a, extends longitudinally through and is carried by a sleeve or quill I3, with the spindle projecting beyond and downwardly below said quill. The'spindle is adjustable longitudinally of and within the quill to set the tracing stylus at the required elevation with respect to the pattern and the rotary cutter 1. The spindle isl longitudinally and externally screw threaded, I2d. and this spindle thread is in mesh with an internally longitudinally threaded upper end portion of the bore of said quill, whereby the spindle is supported in and rendered adjustable longit4wdinally of the quill. ,The upwardly extending end of the spindle is. provided with handle I2e, for rotating ,the same during vertical adjustment.

A vertical head or housing I I is provided for said tracing stylus organization just described. l

The quill carrying the tracer stylus spindle is carried by and slidable longitudinally in the bore of the fixed vertical head or housing II, and depends therefrom and projects upwardly thereabove. A coiled expansion spring IIb, loosely surrounds and extends longitudinally of the quill above and seating on the upper end-of the head.

The upper end of this spring abuts a clamp collar' Il a, normally rigid with the upper end of' the quill. This spring serves to approximately counterbalance the weight of the quill and spindle,

' ing or routing machine`, without 2,005,696 to facilitate the feed andv return longitudinalmovements of the quill and its load. v

Means are provided to feed the tracer stylusand its supporting spindlev and quill, in this instance similar to the rotary cutter feed means, with common transverse rotary shaft Ameans for simultaneously raising and lowering the cutter and stylus.

For longitudinally moving and holding the stylus, we provide a geared operative connection I3a, between the transverse shaft II'Ic, and the quill I3, and this generall connection consists of a longitudinal rack rigid with the quill and a pinion rigid with'said shaft and meshing with the rack. 'The transverse shaft section Ille, at its projecting end (the right-hand end in the drawings) is provided with an exposed forwardly ex- I tending crank handle Id, by which the shaft 'can be rocked.

In the particular example illustrated, the lefthand end of shaft section I0c, is coupled to the right-hand end `of the cutter feed shaftlll, to rotate therewith, the two shafts being axially alined. These two shaft sections I0, Illc, are operatively connected by any suitableldetachable or separable coupling I 0g, which need not be shown and described in detail, as specifically it constitutes a. separate improvement apart from our instant invention.

In the particular machine shown as a mere example of one embodiment of the instant invention, the tracer stylus head and the sensitive table and its controlling means are disclosed as removable attachments applied to a vertical millintending to,y so limit the invention.

The tracer stylus head, in this example, is removably-normally fixed to and supported from and carried by the cutter head housing 5. The present example shows the vertical tubular head II, for the tracer spindle and its quill rigid with and supported by a transverse horizontal tubular case or housingI, opening into and arranged tangentially of head I I, and housing and providing the supporting bearings for the transverse feed shaft section I0c, and the separable coupling between shafts l0 and |Ilc. The left-hand or inner end of this transverse housing I4 is formed with a surrounding exterior base flange Ma, abutting the right hand vertical wall of said head 5,'around the projecting end of feed shaft' Ill, and the tracer stylushead is removably secured to and supported from head 5, by suitable securing bolts |4b, removably passed through said ange Ha, and into head 5.

When the tracer stylus head is thusoperatively fixed to the milling machine in the required normally fixed position relation to the cutter head 5, the rotary cutter and the parallelnonrotary tracing stylus can be simultaneously raised or lowered by either crank handle Illb, I0d. .When the milling machine is not to be used for duplicating purposes and if the presence of the'tracing work table is mounted for universal lateral move# lment under the control of the operator, in a plane perpendicular to the parallel axes of the rotary cutter and the stylus. This table is, preferably, so supported and mounted asto vbe freely movable laterally-in all directions under propulsion by the operator, to be 'thereby sensitive, requiring exertion of minimum effort onthe part of the operator to shift the table laterally. Hence, we prefer to mount the table on rolling travelers, such as balls or rollers, preferably arranged in variously positioned endless series to travel in annular or endless conning runways.

The table is under the manual control of the operator, preferably from' a single station jor operating member having a sturdy power-multiplying operative connectionwith the table. In performing the pattern duplicating work for which this machine is particularly designed, particularly where the pattern is to be duplicated full size, i. e., where the duplicating ratio is one to one, very substantial power or force is required to hold the work in steady, accurate operative relation to and against the high speed rotary cutter and the lateral thrust thereof, and hence, we lnd it to be desirable to provide approximately a five to one, more or-less, leverage or other power multiplying operative connection from the manual control or operating member to the sensitive table, although we do not wish to thus limit ourselves to any particular power increasing operative connection, nor do we wish to limit the broader features or scope of our invention to the particular power multiplying leverage disclosed.

In the example shown, vwe `provide a single strong, rigid, elongated horizontal work table 3|, arranged below the vertical 'rotary milling or other cutter, and the vertical tracing stylus, and the work w, is arranged above and rigidly clamped down on this table by any suitable means, in proper operative relation to and below the cutter, and the patternp, is arranged above the table and is rigidly clamped thereto in operative relation to and below the stylus.

In this particular example, the work table 3| is removably mounted on the ordinary, or other suitable vertically adjustable milling machinel table 2, which is adjustable longitudinally and ,forwardly and rearwardly, as hereinbefore de-l scribed.

In -this particular example, the table 3| is supported through the medium of a fixed base or platen 33, removably yet fixeclly resting on and bolted or otherwise clamped to the milling machine table 2, and onintermediate plate, platen or saddle 32, supported on and confined to the base 33, to limited straight-line movement with respect thereto, with the top table 3| supported on and confined to the saddle to limited relative straight-line movement perpendicular to the path of straight-line movement of Vthe saddle on thebase, in such manner that simultaneous straightline movements of the saddle carrying the top table 3|, with respect to the base, and of the table 3| with respect to the saddle, permits uni-l versal lateral movements of the top table in any direction. In this example, the saddle is confined` to straight forward and rearward movements on the base during which .it carries the top table and the top table is confined to the saddle against 1 any relative movement with respect to the saddle other than straight line longitudinal movements,

i. e., straight-line movements perpendicular toy the pathof movement of the saddle on the base.

The saddle is confined to and supported from the base, in this example, by two separate horizontal parallel endless series of identical rolling travellers, such as balls' b, each series conned to travel in. its own endless raceway. In the example shown, the top plate or table 3|, is conned to and supported on the saddle by two separate horizontal, parallel endless series -of identical rolling travellers, such .as balls b, each conned to travel in its own raceway. The endless series of travellers b conne the table 3| to straightline movement relatively to thesaddle in directions parallel to the longitudinal lines of travel of the endless series of balls b, while carrying the table with the saddle when thesaddle moves laterally or transversely with respect to the path of said straight-line movement. When the saddle thus moves laterally with the table 3|, the saddle is conned to a straight-line path of movement with respect to the base, by the series of endless travellers b, that support the saddle and its load (table 3|) on the base and conne said saddle to relative straight-line movement that is perpendicular to path of straight-linev movement of the table 3|, with respect to the saddle and the base.

The table 3|, being thus carried by rolling supports, is exceedingly sensitivev and can be universally and freely moved in any direction, within its range of horizontal movements, by slight effort.

Any suitable means can be provided to limit the range of horizontal movements of the table 3|, although, as an example for this purpose, we show a rigid, vertical, elongated stud 41,

screwed in or otherwise xed to and upstand-ng table to the areaA surrounded by said annular abutment wall 48. In this instance, said annular wall is approximately square or rectangular, but our invention is not so restricted.

As an example of a manual control having movement-reducing and power-increasing operative connection with table 3 from among others within the spirit and scope of the instant invention, weshow a single control station or operat` ing member in this example formed by the free upper handle end of an elongated upstanding strong, rigid, approximately straight lever 55, at its lower end fulcrumed to a depressed supporting member 51, that is fixed and rigid'with respect to the movable table 3|, and its saddle 32, all in such manner that the lever .55, is universally swingable laterally in all lateral directions, and this lever has operative power-increasing push, pull and holding connection with the tableA 3|, to move the same in the direction the lever is swung.

In this example, the long, upstanding lever 55 is arranged at the right-hand side of the machine, with its upper handle end within convenlent reach of the operators right hand, while he occupies the operators position or stand in iront of the machine with his left hand controlling the cutter nud stylus feed through his grasp of ieecllever |00, and with the work and pattern and the rotary cutter and stylus clearly visible immediately in front and within his convenient range of vision.

.The supporting Iulcrum of lever 55 is in this example depressed to an elvation slightly above the floor level, if so desired, and is provided for by a fixed strong supportingarm 51, secured to and supported by some relatively xed part of,l the machine with respect to the table 3| and its saddle. For instance, we show the upper end of supporting arm 51 at its upper surface fitting the under side of the right-hand end of base 33,' and normally rigidly secured thereto by bolts 51a, with the arm inclined downwardly therefrom toward the right. 'I'he depressed'free or lower end of this arm is arranged horizontally and the lower end of the lever rises therefrom and is coupled thereto by a universal joint or ball and socket connection to provide the lever fulcrum.

For instance, we show the depressed end of the rigid supporting arm in the form of a rigid horizontal annulus 51h, having a Vertical bore. A step bearing block |53, having a central top semi-spherical bearingV depression or seat and an annular exteriorv supporting flange 51e,` is seated down in the bore of annulus 51h, with its flange supported on a shoulder of the annulus. A ball 65, carried by the lever 55, and depending from the lower end thereof, inl alinement with the lever longitudinal axis is complementary to said semi-spherical bearing depression of block 63, and is seated therein. The ball is convlined in the depression in sliding rotating conlength 55 of the lever is rigidly clamped. The

hub 62a alined with the longitudinal axis ofthe llever isv provided with clamping bolt 10.

'I'he lo-Wer end of the lever extension or head 62, provides an yelongated hub B2b that vis longitudinally alined with upper hub 62a, although spaced a considerable distance downwardly therefrom. 'I'his lower hub 62h is longitudinally split to form a. split clamp and isprovided with clamping Ybolt 69.

The casting or other strong rigid member, yoke or head 62, is offset laterally between its alined end hubs 62a, 62h, to provide ample space between said hubs, for reception of the coupling means that yoperatively connects the laterally swingable lever with a push and pull con nection with top table 3|. y

In this example, said connection embodies a stiff strong metal arm 56, tting the under side of the projecting right hand end of table 3| and rigidly vsecured thereto by bolts 56a, with the rigid arm depending from said table clear of lever supporting arm 51, and .extended toward the right and with the lower end of arm 56 terminating in a rigid strong horizontal annulus 56h, located in the space between hubs 62a, B2b, in longitudinal alinement therewith and spaced from both and fromvthe offset portion of yoke 62. Y

This annular 56h is operatively coupled to the lower end portion of lever 55, 62, by any suitable universal or ball and socket coupling or connection, in this example, similar to the ball and socket coupling between annulus 51?) of supporting arm 51, and the lower end of said lever j 6|, and ball 65.

The operative power transmitting coupling from the lever 55, 62, to the table 3| through stiff 4push and pull arm 56 thereof, is, in this particular example, arranged within the offset yoke or head 62, of the lever in the space between the upper Ico and lower alined hubs 62a, B2b, and the work or power applying arm or length f the lever, is the relatively short distance along the longitudinal lever axis, from the center of the fulcrum or lower ball 65, to the center of the upper ball 65a.

These two balls can be operatively coupled to the lever against relative radial movement transversely of the lever longitudinal axis, in any suit'- able manner or by any suitable means, although in this particular example, We show the upper ball 65a, formed with a dovmwardly opening radial socket intowhich an upstanding strong metal stud 61a is fixedly driven 'or otherwise secured. The rigid depending shank 61 of this stud forms a longitudinally elongated hollow downwardly-opening tube or cylinder that depends longitudinally through and is rigidly clamped in the splitclamp-forming hub 62h, rigid with the lower end of the offset head or yoke 6:2, of the lever. 55. The lowerl or fulcrum ball 65 is similarly fixed on a strong rigid upstanding stud 68a, longitudinally alinedwith the stud 61a, and its ball 65a. The upstanding strong shank 68,A offthe stud 68a, forms an upwardly opening tube or cylinder longitudinally alined with cylinder or tube 61, and snugly fitted therein in longitudinally slidable engagement. A coiled expansion spring 1| is preferably compressed in the tube .68, between the closed lower end thereof and the closed upper end'of tube 61 to approximately balance the weight of stud 61, 61a, and the load thereon, as the longitudinal distance between balls 65, 65a, varies slightly during-the lateral swinging movements of the lever from the lever fulcrum center tive sliding movement between the telescoped shanks or bodies of studs 61a, 68a. y

It will beV noted that the'power or hand lever 55, G2, in this particular example constitutes in effect, an elbow lever, having the very long arm 55, 62, to the fulcrum 63, 65, and the very short arm 65, 61, 68, 69, which in this instance, is longitudinally alined with the lever arm 55, providing an exceedingly compact, rugged, powerful and ad vantageous organization.' However, it is also noted that the broader aspect of our invention is not concerned with any specific lever arrangement, mounting and connections. It is also noted as within our invention, vthat the relatively fixed fulcrum support .can be formed by the annulus or hub 58h, to constitute ball 65a, as the lever fulcrum, and the arm 56, can be substituted for the arm l,` to operatively connect the ball 65 with the sensitive table 3|, to actuate the same on its lateral movements. i

We can, if so desired, vary the power multiply'- ng leverage of the manual control member 55,

etc. onthe sensitive table,v by employing leverA lengths l55, of different lengths, as the lever length l 55 is removable and replaceable through the medium of split clamp socket 62a, rigid with the lever yoke or head 62.

l Where the machine of our invention is4 employed to reproduce work of the same size as the pattern, we prefer to employ a power multiplying lever of about 3 to l to 6 to 1, to give the operator the required power or leverage over the rotating cutterwhen at Work, to hold the table..

and work steadily and accurately and to maintain easily absolute control over the table. 4

The sensitive table 3| islongitudinally elongated with respect to the saddle andbase, to provide lthe elongated right hand portion, in this particular instance, on which the master pattern can be fixedly located under the stylus. The table is, preferably, provided with the usual top longitudinal T-slots to receive and permit adjustment of headed bolts for clamping and holding articles on the table top, although othervmeans are possible for this purpose.

The Work is clamped on the main portion of the table 3|, above the saddleand base, and in operative position under the rotary milling cutter.

Where it is desirable to mount the master pattern on 'the extended portion of the flat-top table 3|, in an elevated position, say, approximately as. shown in the drawings, we gain advantages by employing separateL approximately flat plates, for instance, such as 29 and 30. The bottom plate 30, can removably rest flat on and parallel with the top surface of table 3|, and can be adjusted longitudinally thereof and clamped rigidly thereto by upright headed bolts 50 fitted and slidable in the T-slots -of the table, and passing upwardly through bolt holes in said plate. The plate 29 can rest removably on the top face of the plate 30 and removably interlocks with plate 30 through the medium of transverse straightgroove 39a in the top of plate 30 and complementary rib 29a,`

at the bottom of plate 29. This transverse tongue and.- groove interlocking between said plates, centers plate 29 on plate 30 against relative -longitudinal movement, permitting relative transverse adjustment of plate 29 when itsclamping bolts are released. The plate 29 has projecting end ears 29h longitudinally slotted for the removable reception of bolts 50, with the nuts on said bolts adapted to screw down onto said ears to clamp the two plates together and to the table to rigidly hold the two plates in the desired adjustment. The plate y2!! can be formed with the usual top T-slots for adjustment of the bolts exployed to operate any ordinary or suitable clamping means employed to rigidly hold the master pattern on plate 29, in the desired position with respect to the flxedly located work blank, andthe stylus.

' These interlocking plates 29, 30 and their adjustments provide an exceedingly simple and convenient means for lining up and adjusting the master pattern with respect to the work-blank previouslyflxedly located on the table, and for then iixedly securing the pattern in the required position. However, we do )not wish to restrict other features of our invention, to any particular means for securing and/ or adjusting the pattern on the table.

For ordinary duplicating work, the working end of stylus |2 should be of the same diameter and of the same point shape as the'rotary milling cutter 1. Where the surface of the Work after sired xed relationship in readiness for the duplicating operation', the milling machine table is adjusted to bring the table 3| up to the desired elevation required for the duplicating operation. The rotary milling cutter and the stylus are then fed down by handle Hlb, to the operative level with respectto the work blank and the pattern, at which the cutter must begin its duplicating operation. 'I'he stylus is then adjusted vertically to agree with the diiierence in level between thev top of the pattern and the top of the work where the cutter must start Vin on itsl cutting operation. The stylus is adjusted vertically by screwing its spindle |2a by meansof its handle |2e, upwardly or downwardly in and relatively to its quill or barrel |3. When the proper adjustments have been made, the cutter is connected with its driving power, and the operator by handle Illb, simultaneously feeds down both the cutter and stylus as the work progresses, and by the power multiplying lever 55, the operator shifts the table to constantly maintain the work steadily and accurately against the rotating cutter and the pattern accurately and steadily against the stylus, so that as the pattern moves in any and all lateral directions against the stylus, the work will correspondingly shift and be correspondingly held against and into operative relation to the cutter and against the resistance thereof. 'I'he lever 55, is freely and universally movable laterally, and with a great power multiplying leverage freely moves the table 3| laterally in corresponding .uni-

. versal directions to bring all portions of the work toV be operatedon against the cutter and all portions of the pattern to be duplicated against the stylus, and to thus hold the4 table' steadily and accurately against the resistance of the high speed milling cutter. The production of work in full size duplication of patterns, can be, by the machine of our invention, carried on with speed and accuracy and marked economy.

Where a milling or like machinexis equipped with the embodiment of our invention, generally as disclosed by the drawinssfit is possible to preliminarily rough outthe work blank preparatory to the duplicating operation, without bringing the sensitive table movement, and the pattern and stylus, into. action. In thus using the milling cut.- ter without the duplicating machine features, we

. temporarily lock the sensitive table to its base 33 against relative movement and depend on. the ordinary miilingmachine table feeds, operated by handles 3, and I, toshift the table 3|, having the work blank iixed thereon to cause the millingcutter to perform the desired roughing out cutting of the work. The base 33 of our sensitive table is fixed to the ordinary work table of the milling machine, and for this roughing out operating. we thus fix our sensitive table to the milling-machine table against relative movement, and then depend on the milling machine hand screw for bringing the worlr to the cutter.

`Wlien it .ix' desired to begin `the duplicating operation, the' sensitive table. is released from its base, and thus leftfree for its universal latlrai movements, with respect to itsbase and the milling machine table, under the power and control o f the universally laterally swingable hand lever 55. Various means and/or arrangements can be provided for thus temporarily locking the table 3|, against relative movement with respect toits base or with respect to the milling machine table, and for releasing said table for its free duplicating movements. As an example,- we show the table ends formed with projecting rigid eyes 12,

through which removable bolts 14' can be passed,

and screwed into complementary vertical bolt holes in the free ends of arms 13, rigid with the base 33 and projecting outwardly therefrom. When the table is moved to bring the eyes 12, into registration with said bolt holes of arms 13,

the bolts 14, can be dropped into place through` the eyes and screwed into the bolt holes to lock the table to the base. The bolts can be as easily unscrewed'andremoved to release the table from the base for relative movement. The locking action can be assisted by annular vertical threaded nuts 15, screwing into threaded sockets in the ends of arms 13, longitudinally alined with the threaded bolt holes. The bolts drop through these annular nuts. These annular nuts are adapted to be rotated to abut their upper endstightly against. the under surfaces of' the. eyes 12 when the bolts are inrtable locking position, to'aid in the locking action. This is the abnormal position of said nuts` When the boltsareremoved, the nuts are rotated to their normal depressed positions with their, upper ends free of the table 3|.

The particular embodiment-disclosed, provides the tracer stylus headand its mountings as an' attachment for a standardvertical milling ma- 'chine or for any othersuitable machine tool to plied in operative relation to such machine, and

-can beas a unit removed therefrom.

The operative relations between the sensitive top table 3|, the saddle 32, and the base 33, are maintained by thestop means and by the rolling bearings by which said membersare mounted v one on the other and held together in operative relationship. The power multiplying lever 55 and its operative connection with the top table is maintained by the lever supporting arm 51 fixed to the base 33 and also coupled to the lever, and by the stiff push and pull arm M ,iixed to the top table 3|, and also coupled to the lever. 'Ihe table and its operating means thus, in this example,

constitutea unit for attachment to and removal l from the milling or other machine for cooperation with the cutter and tracer stylus heads when arranged on said machine in cooperating relationship. In this embodiment the base 33 is adapted to removablyV fit onv the standard or other work table 2, of the milling machine and to be rigidly' clamped thereon by any suitable means lsuch as the removable vertical bolts M,

the heads of which are held by and -ln the'common T slots of the milling machine table. These bolts can' be adjusted longitudinally of table 2. in said slots, and are here shown extendixig up through slots or bolt holes in 'thebase ends with their top nuts screwing tightly down on the base ends to clamp the base to the table 2. The table and its operating lever organization, will thus be operatively secured to and supported by the table 2. The arms 56, l.iland the lever 55, are 'supported from and carried by the sensitive table organization.

We do not, however, wish to restrict our invention as an attachment, asl it can be built in as a part of a duplicating machine or complete organization for carrying out the purposes of our.

ever, we have devised and disclose what we be'-v lieve to be unique, rolling bearing mountings carrying this table, that are highly advantageous in cooperating to carry out certain purposes of our I invention. For instance, the saddle 32 is confined to and supported from the base by several cooperating bearing sets or pairs, each consisting of a relatively short normally stationarystrong straight bar or rail 34 or 36, and a relatively long straight parallel rail 35 that is normally longitudinally movable with respect to its complementary bar 34,. or 36. The bar and its complementary rail are in a common horizontal plane,l with the rail rigid with and arranged transversely of the saddle, and the bar rigid with and arranged transversely of the base and in this instance, by transversely is meant from'fro'nt to rear. 'I'he approximately meeting, longitudinal, parallel edges of the bar and rail provide vertically wide edge walls. similarly grooved throughout their lengths by V grooves g, preferably right annular in'c'ross section. These complementary approximately meeting grooved edges form a long straight ball retaining race-way for a straight row of balls b. i

The two facing identical grooves4 g of the .cooperating rail and bar are of such form and depth with respect to the diameter of the spherical balls b retained thereby that the balls are loosely confined by and between the rail and bar, with the balls extending equal distances into the same, whereby the rail and bar ,support and confine the balls and whereby the balls constitute the supporting medium between the ra'il and bar when one is rigid with an upper carriage such as the saddle 32, and the other is rigid with a lower member, such as the base 33, and the upper member such as the saddle is thereby supported from the lower member such as the base.

As a convenient, satisfactory arrangement, we.

show the saddle 32 supported on andconfned to the base 33 by two parallel sets of, the complementary rail and bar and their interposed row of balls, arranged in a common horizontal plane,

der the opposite end portions of the saddle and extending transversely of the saddle from front to rear. Y

In this arrangement, the long,strong, straight, rigid rails 35 of each set are rigid with, as by being bolted to, the under side ofthe saddle 32,

and hence, support the saddle and its load, and travel .with the saddle, and confine the saddle to its straight line path of movement, in this instance, forwardly and rearwardly. The relatively shortv and normally stationary complementary bars 3l and 36 are carried by the base I and normally rigidly fixed to top portions thereof by suitable bolts, in the same horizontal plane as the parallel, long, longitudinally movable rails 35, with the straight long raceway forming edges of the bars 34, 36, operatively located and arranged with respect to the complementary raceway forming edges of the respective rails 35, to operatively receive and retain thetwo rows of balls b.

4It will thus be noted that the balls support the saddle and its load and couple the saddle and base together and 'confine the saddle to its straight line path of movement, all through the medium of the'sets of complementary rails and bars and their grooved edges.

The top table 3| is by similar means supported by and confined to the saddle 32, but isconfined Ato a vrelative straight line path of movement longitudinally of the table and transverselyv of the saddle and perpendicular to the straight line forwardly and rearwardly path of movement of' the saddle on.the base, bearing in mind that the table propelling yand directing power is applied direct to the table and that the saddle is propelled on its straight line movements through the medium of the table.

For example, as in the bearing supporting coupling between the saddle and base, two sets of bars 34, 36 and rails 35 are provided between the table and saddle arranged between the front and rear portionsof the table and the end portions of the saddle with the exception that these rails and bars extend longitudinally of the table and saddle at right angles to the lengths of the rails and bars between the saddle and base. v

We show the same kind of parallel long, straight horizontal grooved' rails 35, as before described, rigidly xed to the under side of the table 3|, as by bolts, and parallel long, straight bars 34, 36,

normally ilxed to the top side of the saddle, as

by bolts, with the several railsand bars in a common horizontal plane and with their raceway forming grooved edges approximately meetingand loosely con'ning the rows .of balls b, as hereinbefo're described, to function` with respect to the table and saddle as before described in connection with the saddle and base, the balls being located within the common horizontal plane of the bars and rails.

.f To take up wear and resulting possible objectionable lateral play between the table and saddle and between the saddle and base, any suitable tightening or adjusting means can be provided.`

For instance,lwe show one of the bars, for instance bar 36, between the saddle and base, and bar 36, between the table and saddle', bodily adjustable transversely of its length, to reduce the distances between each set of grooved edges.

For instance, the bar 36 rests on the flat top face of a rabbeted top portion of the base, that forms a longitudinal upstanding wall 33e. The long bar 36, rests on said flat face, and is normally rigidly clamped against the same by a series of bolts 36a extending through somewhat elongated bolt holes in the bar, and screwing into tapped screw holes in the base. On loosening the bolts 36a, the bar can be moved bodily transversely toward its complementary rail 35, fixed to the saddle and this will slightly shift' thel saddle, and thereby shift theother rail 35, carried by the saddle toward its complementary bar 34, the result being to thereby slightly reduce the width of the raceways in which the twoball rows. are arranged. After the adjustment, the bolts 36a 'are again ter of the balls.

tightened. The adjustment can be readily ef-A fected and maintained by a gib 31 interposed between and parallel with and abutting the inner straight edge of the bar 36, and the inner abutting ends of a series of set or stop screws 33, threaded through a series. of tapped screw holes in the wall 33e.

This same provision for adjustment and setting of the bar 36 carried by the top of saddle 32, is shown, fr tightening the bearings between table Si and saddle 32.

In this particular embodiment, the bearing rails 35 are relatively longitudinallyimovable with respect to the complementary bars 34, 36, and each row of balls between a rail and a bar, forms a length oan endless procession, chain or series of identical travelling balls, and each bar 34, 33, and means forming parts thereof provide or coni'- plete a conning endless runway or circuit in which the procession of lballs carried by the bar can travel in either direction, determined by the ldirection of straight line movement of the particular rail contacting and supported by the endless procession of balls carriedby the bar complementary to said rail. Forexample, each bar 34, 36, has a deep ball groove 34h, throughout the length of its inner or rear longitudinal. edge, of vertical width anddepth in excess of the diame- The open longitudinal side of this groove of the bars 34 is closed. by a wall 34e, of the base 33, where the bar is secured to the base or by a wall 34e, of the saddle 32, where vthe bar is secured tothe saddle. The deep ball return groove 34h, of each bearing bar 36 closed at itsv open side by a gib 31.

The bars 3l, 36, have iixed` end blocks or portions 40, forming end extensions thereof providing semi-circular return bend tunnels 40e, that complete theendless ball raceway or circuit from both ends of the V-groove g, of the bar to the correspondingends. of the deep return groove 34h-of the bar. The end extensions 40 also provide curved xed switch points 40d, that close the ends of the V-gi'ooves and deilect the travelling balls therefrom into a tunnel 43e, and from a tunnel into the V-groove. `The endless ball circuit or conilning raceway of each bar is designed to permit the endless procession of balls to freely Atravel along the V-groove and from one end vthereof through the tunriel 40e at that end, to freely return through groove 34h, and the opposite end tunnel 40e, to and into the other end 'of the V-groove.

The end extensions 40, preferably carry felt pads 4I, fitting into the straight V-groove of the rails 35, with a wiping, rubbing t.

The table members, such as 3l and '32, to which clo'sing the bottom narrow space between the ycomplementary V-grooved straight edges between the bars and their companion'rails.

We desire to cover and protect our invention as broadly as is legally possible, as well as fully as to the particular embodiment disclosed for purposes of explanation but not for limitation as to the broader aspects of our invention.

What we claim iszlt In combination, a. :cutterl head; a tracer stylus head arranged in relatively normally xed relation to said cutter head; a relatively longitudinally movable cutter carried by the cutter head; a relatively longitudinally movable stylus carried by the stylus head; av hand operated feed means for simultaneouslymoving the cutter and .stylus longitudinally toward and from operative power multiplying operative connection with saidcarrier, said handle being arranged with respect vto said feed means for operation. by one hand of the operator while his other hand is applied to said feed means.v

2. In combination, in a machine tool, a table mounted for universal vlateral movements; a. lever having its fulcrum supported independently of said table to afford said lever universal lateral swing; and an operative push and pull connection from said lever to said table for moving the table,

the mounting for said table including a base, a

saddle mounted on the base for straight line movement, said table mounted on the saddle for straight line movement perpendicular to the sad line path of movements with respect to the saddle and freely movable laterally withV respect to the base; means whereby the table can be releasably and abnormally locked to .the base against relative movementincluding rigid loclring -portions of the table and baseadapted to be brought into registration for table locking 'by movement of the table to approximate central position; and manually actuated means operatively coupled to the table for moving the same on its movements with respect to the sad-v dle, and on its movements when propelling the saddle.

4. rn combination, m a mame tool, a' 1m;-A erally movable table constituting one member; a

carrier therefor constituting another member; and bearings supporting the table from the car-v rier, embodying elongated spaced parallel straight rails fixed to one of said members, and each throughout the length of a straight longitudinal edge wall having a longitudinal groove forming approximately one half ot a ball confining raceway; straight spaced bars complementary to said rails, respectively, and parallel therewith and fixed 'to the other member, and each throughout one straight longitudinal edge having a lungi-Q tudinal groove forming the other approximately hall' o! a ball conning raceway complementary to the groove of its complementary rail, to receive and confine a row of table supporting and bearing balls; means providing a completing raceway. transversely and longitudinally of each bar between the ends of the straight ball raceway between the complementary grooved edges ot a rail and its'complementary bar; and an procession of table supporting bearing balls in said straight and completing raceway and adapted to travel therein.

5, An attachment for a machine tool having a cutter head carrying a. vertical rotary cutter spindle and means for feeding the same -to and from the work, and also having a work table adapted to receive a freely laterally movablev 'combined work and pattern table, said attachment comprising a tracer stylus head, a vertical stylus spindle in said head, means for longitudinally moving said spindle in said stylus head including a transverse shaft, a transverse stylus head supporting housing for said shaft; and means whereby said housing can be removably secured to said cutter head, with the shaft in operative relation to' said cutter spindle. feedi ing means and with the stylus head in operative fixed relation to said cutter head and table.

6. In combination, in a duplicating apparatus that includes a depending driven cutter and a depending stylus supported in fixed lateral relation and provided with means for feeding the same vertically as a unit; a combined work and pattern vtable supported independently of and arranged below the cutter and stylus and universally movable laterally, and provided with a controlling handle having power multiplying leverage connection with the table for shifting the same laterally and holding the same against the thrust of the cutter on the work; and a mounting for said table rendering the same sensitive and universally laterally movable, including endless series of travelling balls supporting the table against substantial vertical1 movements and confining the same to said mounting, and means confining and supporting said balls and providing endless raceways for said series of travelling balls.

7. In a duplicating machine; a sensitive table universally laterally movable and provided with controlling and shifting means; and a mounting for said table rendering the same sensitive and laterally movable, including a base, a saddle, endless seriesof travelling balls supporting the table from yand confining the same to the saddle, endless series of travelling balls supporting the saddle and table from the base and confining the saddle thereto, and means providing endless raceways in which said balls travel and are confined embodying an elongated rail, and a complementary parallel elongated bar, for each endless series of traveling balls, thel adjoining longitudinal edges of the rail and bar forming.

ball receiving grooves with a straight line of balls interposed between the rail and bar and conned in the grooves thereof, and packing strips parallel with the rail and bar at said adjoiningA edges thereof and above and below the line of travelling balls confined by said grooves.

8. A three dimensional duplicating machine, including a table mounted for free and easy universal lateral movements in a normally fixed plane; a table-controlling'handle provided withA -ter and the stylus in nxed lateral relation and against normal lateral movements; and manuter and the stylus as a unit into operative depth association with the work and the pattern, respectively, and for holding the same thereto, while a hand of the operator through the medium of said laterally movable handle and its said operative connection with the table, controls the lateral positions of the table to maintain, the operative lateral association of the work and pattern with the cutter and stylus, respectively, and to hold the table against the lateral thrust of the rotary cutter on the work.

9. In combination; a cutter head provided with a relatively movable cutter; a tracer stylus head provided with a relatively movable stylus; supporting means maintaining said two heads normally fixed; feed means under the control of the operator for simultaneously moving the cutter and stylus toward and from operative positions and for holding them to operative positions; and lmeans under the control of the operator for holding the work and the pattern in -Xed relative relationship and for simultaneously moving the same laterally into operative association With the cutter an-d tracer respectively, said last mentioned means including a carrier normally operatively mounted against vertical movement and for free universal lateral movements,l

eration by one hand of the operator While his v other hand is applied to said feed means.

l0. In a duplicating machine, a table member adapted to maintain the lateral dimensional operative relation between the cutter and stylus,

and Work and pattern; and a mounting rendering said table member universally laterally movable, including a base member, and a saddle confined to the base member for straight line lateral movements, said table member confined to said saddle for straight line lateral movements at right angles to said saddle movements, a vertical stop post rigid with one of said members and an annular abutment rigid with the other member and surrounding the free end of said post and adapted to laterally abut the freefend of the post in defining the limits of relative lateral movements of the table member, said saddle providing a vertical opening for the passage of said post and for the relative lateral movements of the saddle.

ll. In' a duplicating machine having a machine table below its cutter and tracing stylus; a table member adapted to have the work and the pattern xed thereon for operative association as a unit, with the cutter and the stylus provided by sai-d machine; a mounting for said table member rendering the table member universally laterally movable, said mounting including a Abase and a relatively laterally movable saddle coupled to the bas against normal vertical separation, said table member being coupled to said saddle against -normal vertical separation and for relative lateral movement; said base provided with a projecting arm, said tablel member provided with a projecting propelling and controlling arm; and a universally laterally swingable lever operatively coupled to said arms to establish a power-multiplying operative connection with the Ytable member for propelling the same; said table member and lits said mounting and lever being applicable to and removable from said machine table, as a unit.

12. In a duplicating machine; a member adapted to control and effect the relative universal lateral movements between the cutter and stylus on the one hand and the work and the pattern on the other hand; a supporting and confining mounting for said member rendering the same universally laterally movable; and a laterally movable member propelling and controlling handle having power-multiplying operative connection with said member; said mounting including a saddle, and aibase, said table member confined to said saddle for relative straight-line lateral movements, said saddle confined to said base for relative straight-line lateral movements substantially perpendicular to said member movements, member supporting rotary balls interposed between said member and said saddle and coupling the member to the saddle'against vertical separation and confining the member to said straight line movements, and member and saddle supporting rotary balls interposed between'said saddle and said base and coupling the same together against vertical separation and confining said saddle tol its said straight line movements.

13. In a duplicating machine; a table; a supporting and confining mounting for said table rendering the same universally laterally movable; and table propelling means; said table having parallel spaced longitudinal straight-line V- grooves each forming a partial raceway for a row of rolling balls; said mounting including a saddle having longitudinal straight-line V-groovesl beside and complementary to saidgrooves of the table, respectively; a row of 'table supporting rolling balls in each raceway formed by a` table groove Iand its complementary saddle groove, said balls confining the table to straight-line lateral movements and coupling vthe table and saddle together against vertical separation; a base having parallel spaced longitudinal straight-line V-grooves at right angles to said table grooves and each forming a partial raceway for a row of rolling balls, said saddle having grooves complementary to said base grooves to form ball raceways; and a row of table and saddle supporting rolling balls. in each of said last named raceways confining the saddle to relative straight line lateral movements and coupling the saddle to the base against vertical separation therefrom.

14. A three dimensional duplicating apparatus for reproducing the pattern in the work, comprising supporting means; a rotary cutter; a tracer stylus normally maintained in fixed laterally spaced relation with respect to said cutter; manually actuated feed mechanism for causing relative depth cutting and tracing, and separating movements between the cutter and stylus andthe work and the pattern, to bring the cutter and the stylusand the work and the pattern into and from depth cutting and tracing operative'association; and manually' actuated mechanism for causing universallateral movements between the cutter and stylus and the work and pattern, for controlling and maintaining the lateral-dimensional cutting and tracing operative association of the cutter and work, and the stylus and pattern, said last mentioned mechanism embodying a table sensitively mounted vfor free and easy universal lateral movements in a normally fixed plane, relatively to its mounting and an independently mounted table actuating and controlling handle universally laterally movable and.

provided with operative power-multiplying connection with said table. f

15. A three dimensional duplicating apparatus `wherein a cutter and a tracer'stylus are maintained in normal laterally spaced relation, and wherein the work andthe pattern are arranged vwork and the tracer and the pattern to and hold the same in operative'depth cutting and depth tracing association; and manually-actuated means for causing universal lateral cutting and tracing movements between `the cutter and the tracer and the work and pattern, embodying a member provided with a supporting mounting by which said member is rendered freely and universally movable laterally and is held against substantial relative vertical movements, and a member-propelling and controlling handle provided with operative power-multiplying and controlling connection with said member. y

16. A duplicating apparatus, embodying a cutter; a stylus supported in normally fixed llateral relation` with respect to the cutter; means for feeding the cutter and the stylus `to and for holding the same in operative depth cutting and tracing association with work and a pattern, respectively; a table adapted to have the work and the pattern fixed thereto; a manually-actuated controlling and propelling member mounted independently of said table and provided with power-multiplying operative leverage connection with said table for shifting the table laterally and-holding the same against the lateral thrust of the cutter/on the work; and a supporting mounting for said table rendering the table freely and easily universally laterally movable under the propelling action ofsaid member and its operative connection with the table.

17. In a duplicating machine; a combined work and pattern table sensitively mounted for universal lateral movements; a universally laterally movable handle provided with power mul- .the table moving and holding handle to permit the operator to observe the work and cutter and pattern and stylus while one hand operates the table handle and the other hand operates cutter and stylus feed handle.

18. In a duplicating machine; a sensitive table universally laterally movable and provided with controlling and shifting means;`- and a mounting for said table rendering the same sensitive and laterally movable, including a base, a saddle,

the

series of travelling balls supporting thevtable4 from and confining the same -to the saddle,vseries of travelling balls supporting tl'lev saddle and table from the basel and confining vthe saddle thereto, and means providing raceways in which said balls are connned embodying an elongated rail, and a complementary' parallel elongated bar, for each series of travelling balla-the ad- Iioining longitudinal edges oi.' the rail and bar formingball receiving grooves with a straight line of balls interposed between the rail and bar and confined in the grooves thereof.

19. In duplicating apparatus; a table for maintaining the lateral dimensional operative association of the cutter and work land stylus and pattern; a mounting for said table rendering the sameA universally and freely movable laterally; and manual control mechanism for propeiling the table on its universal lateral movelength oi' the short arm, an independent support,

a direct universal fulcrum coupling for said lever between one end of said short lever arm and said support confining said lever to said universal lateral swing, and a direct conning universal push and pull coupling between a ilxed part of said table and'the other end of said lever s hort arm, positively uniting the table to the lever to instantly respond laterally to lever movements and control.

20. .In duplicating apparatus; 'a table l for maintaining the lateral dimensional association of cutter and work during the operation of duplicating a pattern in the work; a mounting for said table rendering the same freely universally laterally movable; said table having a projecting push, pull and holding element; a iixed member with a portion opposite and spaced from said table element; and manual oontrol'mechanism for propellingy said table on its universal lateral movements, including a lever having a short power-applying arm arranged transversely between said iixed member portion and said table element, and at one end fulcrumed on and confined to' said portion at a xed point for relative universal lateral swing thereon, and at vthe other end directly coupled and confined to said element at a iixed point for relative universal lateral swing thereon, and a relatively'long lever arm joined into said short arm between the ends of said short arm for simultaneous lateral swing of said long and short arms as a unit.

21. In duplicating apparatus; a table provided with a mounting rendering the table freely universally laterally movable, said table having a push, pull and holding portion for propelling the table laterally and controlling the' lateral positioning thereof; a normally relatively ilxed support arranged adjacent to and spaced from said portion; and a universally laterally swingable manually-controlled lever directly coupled to said portion for propelling said table on its said lateral movements and for controlling the lateral positioning thereof, said lever including a long lever arm and a short lever arm, said short arm arranged transversely of and between said support and said portion and conned to said portion at a fixed point against relative movement longitudinally thereof and for relative universal lateral swing in pushing, pulling and laterally holding said portion, and a ball and socket joint directly coupling the other end of said short arm to said support and constituting the lever fulcrum confined at a iixed point on said support against relative lever longitudinal movement.

22. Induplicating apparatus; a'table for'maintaining the lateral dimensional operative association of the cutter and work; a mounting for said table rendering the same freely universally laterally movable, said table provided with a propelling and holding portion; a normally xed support arranged opposite and spaced from said'portion; and a manually-controlled universally swin'gable lever for propelling and laterally holding said table through the medium of said portion, said lever embodying a long lever arm and a powerapplying short lever arm, said short arm being arranged between said portion and said support and fulcrumed to said support at a fixed point thereon, against relative longitudinal lever movement and for relative universal lateral lever swing, the opposite end oi said short arm being coupled to said portion against relative lateral and longitudinal movements thereon and for relative universal lateral leverl swing, said short arm including means rendering said short arm yieldingly longitudinally extensible to compensate the vary-y ing distances between the support and said portion during lever swing.

23. In duplicating apparatus; a table mounted for universal lateral movement and provided with a propelling and holding portion; a normally fixed support spaced from said portion; and a manually-controlled universally laterally swingable lever ,for laterally propelling and holding said table, said lever including a long lever arm embodying a laterally oiiset portion provided with an end split clamping hub, and a power-applying short lever arm extending through and normally rigidly held by said hub, said short arm at one end fulcrumed to said support for relative universal lateral swing `thereon and extending therefrom to said portion transversely thereof and at its opposite end coupled to said portion for universal lateral swing with respect thereto and against relative lateral movement.

P. M. HENKEB. GEO. GORTON. m. GEORGE HORNER. 

